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Design and Experimental Analysis of a Selfbearing Double-Stator Linear-Rotary Actuator

Spasoje Mirić, Rosario Giuffrida, Gwendolin Rohner, Dominik Bortis, Johann W. Kolar

Year
2021
Citations
9

Abstract

Linear-rotary actuators (LiRAs) are today used in industry applications where a controlled linear and rotary motion is necessary such as pick-and-place robots, servo actuation of gearboxes or tooling machines. However, in special industry applications that require high purity and/or high precision positioning, the usage of conventional LiRAs with mechanical bearings is limited. Therefore, in this paper a LiRA with integrated magnetic bearings, i.e. a selfbearing/bearingless LiRA, is analyzed. The actuator employs concentrically arranged linear and rotary stators placed inside and outside a cylindrically shaped mover, which results in a so-called selfbearing double-stator (SBDS) LiRA. A FEM geometry optimization of the SBDS LiRA is performed and Pareto performance plots concerning linear force and torque generation are obtained. A SBDS LiRA hardware demonstrator and an 18-phase inverter power supply hardware prototype are built and their operation is experimentally verified by rotary and linear position step response measurements.

Keywords

ActuatorStatorRotary actuatorTorqueEngineeringPower (physics)Linear actuatorControl theory (sociology)Bearing (navigation)Finite element method

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